- -

Low-cost modular devices for on-road vehicle detection and characterisation

RiuNet: Repositorio Institucional de la Universidad Politécnica de Valencia

Compartir/Enviar a

Citas

Estadísticas

  • Estadisticas de Uso

Low-cost modular devices for on-road vehicle detection and characterisation

Mostrar el registro completo del ítem

Poza-Lujan, J.; Uribe-Chavert, P.; Posadas-Yagüe, J. (2023). Low-cost modular devices for on-road vehicle detection and characterisation. Design Automation for Embedded Systems. 27(1-2):85-102. https://doi.org/10.1007/s10617-023-09270-y

Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10251/200864

Ficheros en el ítem

Metadatos del ítem

Título: Low-cost modular devices for on-road vehicle detection and characterisation
Autor: Poza-Lujan, Jose-Luis Uribe-Chavert, Pedro Posadas-Yagüe, Juan-Luis
Entidad UPV: Universitat Politècnica de València. Escola Tècnica Superior d'Enginyeria Informàtica
Fecha difusión:
Resumen:
[EN] Detecting and characterising vehicles is one of the purposes of embedded systems used in intelligent environments. An analysis of a vehicle¿s characteristics can reveal inappropriate or dangerous behaviour. This ...[+]
Palabras clave: Vehicle detection , Low-cost devices , Distributed systems , Edge computation , Characterisation systems , Intelligent environments
Derechos de uso: Reconocimiento (by)
Fuente:
Design Automation for Embedded Systems. (issn: 0929-5585 )
DOI: 10.1007/s10617-023-09270-y
Editorial:
Springer-Verlag
Versión del editor: https://doi.org/10.1007/s10617-023-09270-y
Código del Proyecto:
info:eu-repo/grantAgreement/AEI//PID2021-124502OB-C41//MODELOS Y PLATAFORMAS PARA SISTEMA INFORMÁTICOS INDUSTRIALES PREDECIBLES, SEGUROS Y CONFIABLES/
Agradecimientos:
This work was by the Spanish Science and Innovation Ministry: CICYT project PRESECREL: "Models and platforms for predictable, secure and reliable industrial information technology systems" PID2021-124502OB-C41. Funding for ...[+]
Tipo: Artículo

References

Broy M, Cengarle MV, Geisberger E (2012) Cyber-physical systems: imminent challenges. In: Monterey workshop, pp 1–28. Springer

Wolf W (2009) Cyber-physical systems. IEEE Ann Hist Comput 42(03):88–89

Serpanos D (2018) The cyber-physical systems revolution. Computer 51(3):70–73 [+]
Broy M, Cengarle MV, Geisberger E (2012) Cyber-physical systems: imminent challenges. In: Monterey workshop, pp 1–28. Springer

Wolf W (2009) Cyber-physical systems. IEEE Ann Hist Comput 42(03):88–89

Serpanos D (2018) The cyber-physical systems revolution. Computer 51(3):70–73

Hichri Y, Dahi S, Fathallah H (2021) Candidate architectures for emerging IOV: a survey and comparative study. Des Autom Embed Syst 25(4):237–263

Canas V, Garcia A, de Las-Morenas J, Blanco J (2019) Modular and reconfigurable platform as new philosophy for the development of updatable vehicular electronics. Rev Iberoam de Automática e Inform Industr 16(2):200–211

Asselin-Miller N, Biedka M, Gibson G, Kirsch F, Hill N, White B, Uddin K (2016) Study on the deployment of c-its in Europe: final report. Rep for DG MOVE MOVE/C 3:2014–794

Corli A, Malaguti L (2021) Wave fronts in traffic flows and crowds dynamics. In: Cicognani M, Del Santo D, Parmeggiani A, Reissig M (eds) Anomalies in partial differential equations. Springer, Cham, pp 167–189

Maity S, Bhattacharyya A, Singh PK, Kumar M, Sarkar R (2022) Last decade in vehicle detection and classification: a comprehensive survey. Arch Comput Methods Eng 28:1–38

Sun Z, Bebis G, Miller R (2004) On-road vehicle detection using optical sensors: a review. In: Proceedings. The 7th International IEEE Conference on Intelligent Transportation Systems (IEEE Cat. No. 04TH8749), pp 585–590. IEEE

Li W, Li H, Wu Q, Chen X, Ngan KN (2019) Simultaneously detecting and counting dense vehicles from drone images. IEEE Trans Industr Electron 66(12):9651–9662

Messoussi O, Magalhães FGd, Lamarre F, Perreault F, Sogoba I, Bilodeau G-A, Nicolescu G (2021) Vehicle detection and tracking from surveillance cameras in Urban scenes. In: International symposium on visual computing, pp 191–202. Springer

Lozano Dominguez JM, Mateo Sanguino TJ (2019) Review on v2x, i2x, and p2x communications and their applications: a comprehensive analysis over time. Sensors 19(12):2756

Qian X, Hao L (2020) Performance analysis of cooperative sensing over time-correlated Rayleigh channels in vehicular environments. Electronics 9(6):1004

Hidalgo C, Marcano M, Fernandez G, Perez J (2020) Cooperative maneuvers applied to automated vehicles in real and virtual environments. Rev Iberoam de Autom e Inform industr 17(1):56–65

Scaglia G, Serrano ME, Albertos Pérez P (2020) Control de trayectorias basado en álgebra lineal. Rev Iberoam de Autom e Inform industr 17(4):344–353

Chen Z, Wu C, Huang Z, Lyu N, Hu Z, Zhong M, Cheng Y, Ran B (2017) Dangerous driving behavior detection using video-extracted vehicle trajectory histograms. J Intell Transport Syst 21(5):409–421

Celik T, Kusetogullari H (2009) Solar-powered automated road surveillance system for speed violation detection. IEEE Trans Industr Electron 57(9):3216–3227

de Oliveira M, Teixeira R, Sousa R, Tavares Gonçalves EJ, et al (2021) An agent-based simulation to explore communication in a system to control urban traffic with smart traffic lights

Adarsh S, Kaleemuddin SM, Bose D, Ramachandran K (2016) Performance comparison of infrared and ultrasonic sensors for obstacles of different materials in vehicle/robot navigation applications. IOP Conf Ser Mater Sci Eng 149:012141

Appiah O, Quayson E, Opoku E (2020) Ultrasonic sensor based traffic information acquisition system; a cheaper alternative for its application in developing countries. Sci Afr 9:00487

Matsuo T, Kaneko Y, Matano, M (1999) Introduction of intelligent vehicle detection sensors. In: Proceedings 199 IEEE/IEEJ/JSAI international conference on intelligent transportation systems (Cat. No. 99TH8383), pp 709–713. IEEE

Jo Y, Choi J, Jung I (2014) Traffic information acquisition system with ultrasonic sensors in wireless sensor networks. Int J Distrib Sens Netw 10(5):961073

Li SE, Li G, Yu J, Liu C, Cheng B, Wang J, Li K (2018) Kalman filter-based tracking of moving objects using linear ultrasonic sensor array for road vehicles. Mech Syst Signal Process 98:173–189

Jeon S, Kwon E, Jung I (2014) Traffic measurement on multiple drive lanes with wireless ultrasonic sensors. Sensors 14(12):22891–22906

Stiawan R, Kusumadjati A, Aminah NS, Djamal M, Viridi S (2019) An ultrasonic sensor system for vehicle detection application. J Phys Conf Ser 1204:012017

Marwedel P (2021) Embedded system design: embedded systems foundations of cyber-physical systems, and the internet of things. Springer, New York

Swanson DC (2011) Signal Processing for intelligent sensor systems with MATLAB. CRC Press, Boca Raton

Bae I, Ji U (2019) Outlier detection and smoothing process for water level data measured by ultrasonic sensor in stream flows. Water 11(5):951

Zhao H, Wang Z (2011) Motion measurement using inertial sensors, ultrasonic sensors, and magnetometers with extended Kalman filter for data fusion. IEEE Sens J 12(5):943–953

Ting J-A, Theodorou E, Schaal S (2007) Learning an outlier-robust Kalman filter. Eur Conf Mach Learn 25:748–756

Johnson NL (1961) A simple theoretical approach to cumulative sum control charts. J Am Stat Assoc 56(296):835–840

Pierre R.Bertrand, Hadouni D (2015) Change point detection by filtered derivative with p-value : choice of the extra-parameters. Working paper or preprint. https://hal.science/hal-01240885

Găşpăresc G, Gontean A (2014) Performance evaluation of ultrasonic sensors accuracy in distance measurement. In: 2014 11th International symposium on electronics and telecommunications (ISETC), pp 1–4. IEEE

Tsitsiklis JN (1988) Decentralized detection by a large number of sensors. Math Control Signals Syst 1(2):167–182

Koldobsky A (1998) Second derivative test for intersection bodies. Adv Math 136(1):15–25

Lee M, Newman RE, Latchman HA, Katar S, Yonge L (2003) Homeplug 1.0 powerline communication lans-protocol description and performance results. Int J Commun Syst 16(5):447–473

Poza-Lujan JL, Uribe-Chavert P, Sáenz-Peñafiel J-J, Posadas-Yagüe J-L (2021) Distributing and processing data from the edge. a case study with ultrasound sensor modules. Int Symp Distrib Comput Artif Intell 95:190–199

Marko D, Hrubỳ D (2020) Distance measuring in vineyard row using ultrasonic and optical sensors. In: Proceeding of 22 Nd international conference of Young scientists. Praha: Česká Zemědělská univerzita, pp 194–204

Semiconductors P (2000) The i2c-bus specification. Philips Semicond 9397(750):00954

Huh J-H, Seo K (2017) An indoor location-based control system using Bluetooth beacons for IoT systems. Sensors 17(12):2917

Gandhi MM, Solanki DS, Daptardar RS, Baloorkar NS (2020) Smart control of traffic light using artificial intelligence. In:2020 5th IEEE international conference on recent advances and innovations in engineering (ICRAIE), pp 1–6. IEEE

Uribe Chavert P, Gandhi MM (2022) Vehicle speed and length detector with ultrasound sensor and different angles. https://doi.org/10.5281/zenodo.7215268.‘github.com/puch18ou/’

[-]

recommendations

 

Este ítem aparece en la(s) siguiente(s) colección(ones)

Mostrar el registro completo del ítem